src/main/decaf/io/BufferedInputStream.h - activemq-cpp - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one or more
  * contributor license agreements.  See the NOTICE file distributed with
  * this work for additional information regarding copyright ownership.
  * The ASF licenses this file to You under the Apache License, Version 2.0
  * (the "License"); you may not use this file except in compliance with
  * the License.  You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef _DECAF_IO_BUFFEREDINPUTSTREAM_H_
 #define _DECAF_IO_BUFFEREDINPUTSTREAM_H_

 #include <decaf/io/FilterInputStream.h>
 #include <decaf/lang/exceptions/IllegalArgumentException.h>

 namespace decaf{
 namespace io{

     /**
      * A wrapper around another input stream that performs
      * a buffered read, where it reads more data than it needs
      * in order to reduce the number of io operations on the
      * input stream.
      */
     class DECAF_API BufferedInputStream : public FilterInputStream {
     private:

         /**
          * The internal buffer.
          */
         unsigned char* buffer;

         /**
          * The buffer size.
          */
         std::size_t bufferSize;

         /**
          * The current head of the buffer.
          */
         std::size_t head;

         /**
          * The current tail of the buffer.
          */
         std::size_t tail;

         /**
          * The current limit, which when passed, invalidates the current mark.
          */
         int markLimit;

         /**
          * The currently marked position. -1 indicates no mark has been set or the
          * mark has been invalidated.
          */
         int markpos;

     public:

         /**
          * Constructor
          * @param stream The target input stream.
          * @param own indicates if we own the stream object, defaults to false
          */
         BufferedInputStream( InputStream* stream, bool own = false );

         /**
          * Constructor
          * @param stream the target input stream
          * @param bufferSize the size for the internal buffer.
          * @param own indicates if we own the stream object, defaults to false.
          * @throws IllegalArgumentException is the size is zero.
          */
         BufferedInputStream( InputStream* stream,
                              std::size_t bufferSize,
                              bool own = false )
             throw ( lang::exceptions::IllegalArgumentException );

         virtual ~BufferedInputStream();

         /**
          * Indcates the number of bytes avaialable.
          * @return the sum of the amount of data avalable
          * in the buffer and the data available on the target
          * input stream.
          */
         virtual std::size_t available() const throw ( IOException ) {
             if( buffer == NULL ) {
                 throw IOException(
                     __FILE__, __LINE__,
                     "BufferedInputStream::available - Buffer was closed");
             }
             return ( tail - head ) + inputStream->available();
         }

         /**
          * Close this BufferedInputStream. This implementation closes the target
          * stream and releases any resources associated with it.
          * @throws IOException If an error occurs attempting to close this stream.
          */
         virtual void close() throw( IOException );

         /**
          * Reads a single byte from the buffer.  Blocks until
          * the data is available.
          * @return The next byte.
          * @throws IOException thrown if an error occurs.
          */
         virtual unsigned char read() throw ( IOException );

         /**
          * Reads an array of bytes from the buffer.  Blocks
          * until the requested number of bytes are available.
          * @param buffer (out) the target buffer.
          * @param offset the position in the buffer to start reading from.
          * @param bufferSize the size of the output buffer.
          * @return The number of bytes read or -1 if EOF
          * @throws IOException thrown if an error occurs.
          * @throws NullPointerException if buffer is NULL
          */
         virtual int read( unsigned char* buffer,
                           std::size_t offset,
                           std::size_t bufferSize )
             throw ( IOException,
                     lang::exceptions::NullPointerException );

         /**
          * Skips over and discards n bytes of data from this input stream. The
          * skip method may, for a variety of reasons, end up skipping over some
          * smaller number of bytes, possibly 0. This may result from any of a
          * number of conditions; reaching end of file before n bytes have been
          * skipped is only one possibility. The actual number of bytes skipped
          * is returned. If n is negative, no bytes are skipped.
          * <p>
          * The skip method of InputStream creates a byte array and then
          * repeatedly reads into it until n bytes have been read or the end
          * of the stream has been reached. Subclasses are encouraged to
          * provide a more efficient implementation of this method.
          * @param num - the number of bytes to skip
          * @returns total butes skipped
          * @throws IOException if an error occurs
          */
         virtual std::size_t skip( std::size_t num )
             throw ( io::IOException, lang::exceptions::UnsupportedOperationException );

         /**
          * Marks the current position in the stream A subsequent call to the
          * reset method repositions this stream at the last marked position so
          * that subsequent reads re-read the same bytes.
          *
          * If a stream instance reports that marks are supported then the stream
          * will ensure that the same bytes can be read again after the reset method
          * is called so long the readLimit is not reached.
          * @param readLimit - max bytes read before marked position is invalid.
          */
         virtual void mark( int readLimit ) {
             this->markLimit = readLimit;
             this->markpos = (int)head;
         }

         /**
          * Repositions this stream to the position at the time the mark method was
          * last called on this input stream.
          *
          * If the method markSupported returns true, then:
          *   * If the method mark has not been called since the stream was created,
          *     or the number of bytes read from the stream since mark was last called
          * 	   is larger than the argument to mark at that last call, then an
          *     IOException might be thrown.
          *   * If such an IOException is not thrown, then the stream is reset to a
          *     state such that all the bytes read since the most recent call to mark
          *     (or since the start of the file, if mark has not been called) will be
          *     resupplied to subsequent callers of the read method, followed by any
          *     bytes that otherwise would have been the next input data as of the
          *     time of the call to reset.
          * If the method markSupported returns false, then:
          *   * The call to reset may throw an IOException.
          *   * If an IOException is not thrown, then the stream is reset to a fixed
          *     state that depends on the particular type of the input stream and how
          *     it was created. The bytes that will be supplied to subsequent callers
          *     of the read method depend on the particular type of the input stream.
          * @throws IOException
          */
         virtual void reset() throw ( IOException ) {
             throw IOException(
                 __FILE__, __LINE__,
                 "BufferedInputStream::reset - mark no yet supported." );
         }

         /**
          * Determines if this input stream supports the mark and reset methods.
          * Whether or not mark and reset are supported is an invariant property of
          * a particular input stream instance.
          * @returns true if this stream instance supports marks
          */
         virtual bool markSupported() const{ return false; }

     private:

         /**
          * Initializes the internal structures.
          * @param size of buffer to allocate
          */
         void init( std::size_t bufferSize );

         /**
          * Populates the buffer with as much data as possible
          * from the target input stream.
          * @returns total bytes read, or -1 if EOF.
          * @throws CMSException
          */
         int bufferData() throw ( IOException );

         /**
          * Returns the number of bytes that are currently unused
          * in the buffer.
          */
         std::size_t getUnusedBytes() const{
             return bufferSize - tail;
         }

         /**
          * Returns the current tail position of the buffer.
          */
         unsigned char* getTail(){
             return buffer + tail;
         }

         /**
          * Initializes the head and tail indicies to the beginning
          * of the buffer.
          */
         void clear(){
             head = tail = 0;
         }

         /**
          * Inidicates whether or not the buffer is empty.
          */
         bool isEmpty() const{
             return head == tail;
         }

         /**
          * Clears the buffer if there is no data remaining.
          */
         void normalizeBuffer(){
             if( isEmpty() ){
                 clear();
             }
         }

     };

 }}

 #endif /*_DECAF_IO_BUFFEREDINPUTSTREAM_H_*/
	/*
	* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed with
	* this work for additional information regarding copyright ownership.
	* The ASF licenses this file to You under the Apache License, Version 2.0
	* (the "License"); you may not use this file except in compliance with
	* the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef _DECAF_IO_BUFFEREDINPUTSTREAM_H_
	#define _DECAF_IO_BUFFEREDINPUTSTREAM_H_

	#include <decaf/io/FilterInputStream.h>
	#include <decaf/lang/exceptions/IllegalArgumentException.h>

	namespace decaf{
	namespace io{

	/**
	* A wrapper around another input stream that performs
	* a buffered read, where it reads more data than it needs
	* in order to reduce the number of io operations on the
	* input stream.
	*/
	class DECAF_API BufferedInputStream : public FilterInputStream {
	private:

	/**
	* The internal buffer.
	*/
	unsigned char* buffer;

	/**
	* The buffer size.
	*/
	std::size_t bufferSize;

	/**
	* The current head of the buffer.
	*/
	std::size_t head;

	/**
	* The current tail of the buffer.
	*/
	std::size_t tail;

	/**
	* The current limit, which when passed, invalidates the current mark.
	*/
	int markLimit;

	/**
	* The currently marked position. -1 indicates no mark has been set or the
	* mark has been invalidated.
	*/
	int markpos;

	public:

	/**
	* Constructor
	* @param stream The target input stream.
	* @param own indicates if we own the stream object, defaults to false
	*/
	BufferedInputStream( InputStream* stream, bool own = false );

	/**
	* Constructor
	* @param stream the target input stream
	* @param bufferSize the size for the internal buffer.
	* @param own indicates if we own the stream object, defaults to false.
	* @throws IllegalArgumentException is the size is zero.
	*/
	BufferedInputStream( InputStream* stream,
	std::size_t bufferSize,
	bool own = false )
	throw ( lang::exceptions::IllegalArgumentException );

	virtual ~BufferedInputStream();

	/**
	* Indcates the number of bytes avaialable.
	* @return the sum of the amount of data avalable
	* in the buffer and the data available on the target
	* input stream.
	*/
	virtual std::size_t available() const throw ( IOException ) {
	if( buffer == NULL ) {
	throw IOException(
	__FILE__, __LINE__,
	"BufferedInputStream::available - Buffer was closed");
	}
	return ( tail - head ) + inputStream->available();
	}

	/**
	* Close this BufferedInputStream. This implementation closes the target
	* stream and releases any resources associated with it.
	* @throws IOException If an error occurs attempting to close this stream.
	*/
	virtual void close() throw( IOException );

	/**
	* Reads a single byte from the buffer. Blocks until
	* the data is available.
	* @return The next byte.
	* @throws IOException thrown if an error occurs.
	*/
	virtual unsigned char read() throw ( IOException );

	/**
	* Reads an array of bytes from the buffer. Blocks
	* until the requested number of bytes are available.
	* @param buffer (out) the target buffer.
	* @param offset the position in the buffer to start reading from.
	* @param bufferSize the size of the output buffer.
	* @return The number of bytes read or -1 if EOF
	* @throws IOException thrown if an error occurs.
	* @throws NullPointerException if buffer is NULL
	*/
	virtual int read( unsigned char* buffer,
	std::size_t offset,
	std::size_t bufferSize )
	throw ( IOException,
	lang::exceptions::NullPointerException );

	/**
	* Skips over and discards n bytes of data from this input stream. The
	* skip method may, for a variety of reasons, end up skipping over some
	* smaller number of bytes, possibly 0. This may result from any of a
	* number of conditions; reaching end of file before n bytes have been
	* skipped is only one possibility. The actual number of bytes skipped
	* is returned. If n is negative, no bytes are skipped.
	* <p>
	* The skip method of InputStream creates a byte array and then
	* repeatedly reads into it until n bytes have been read or the end
	* of the stream has been reached. Subclasses are encouraged to
	* provide a more efficient implementation of this method.
	* @param num - the number of bytes to skip
	* @returns total butes skipped
	* @throws IOException if an error occurs
	*/
	virtual std::size_t skip( std::size_t num )
	throw ( io::IOException, lang::exceptions::UnsupportedOperationException );

	/**
	* Marks the current position in the stream A subsequent call to the
	* reset method repositions this stream at the last marked position so
	* that subsequent reads re-read the same bytes.
	*
	* If a stream instance reports that marks are supported then the stream
	* will ensure that the same bytes can be read again after the reset method
	* is called so long the readLimit is not reached.
	* @param readLimit - max bytes read before marked position is invalid.
	*/
	virtual void mark( int readLimit ) {
	this->markLimit = readLimit;
	this->markpos = (int)head;
	}

	/**
	* Repositions this stream to the position at the time the mark method was
	* last called on this input stream.
	*
	* If the method markSupported returns true, then:
	* * If the method mark has not been called since the stream was created,
	* or the number of bytes read from the stream since mark was last called
	* is larger than the argument to mark at that last call, then an
	* IOException might be thrown.
	* * If such an IOException is not thrown, then the stream is reset to a
	* state such that all the bytes read since the most recent call to mark
	* (or since the start of the file, if mark has not been called) will be
	* resupplied to subsequent callers of the read method, followed by any
	* bytes that otherwise would have been the next input data as of the
	* time of the call to reset.
	* If the method markSupported returns false, then:
	* * The call to reset may throw an IOException.
	* * If an IOException is not thrown, then the stream is reset to a fixed
	* state that depends on the particular type of the input stream and how
	* it was created. The bytes that will be supplied to subsequent callers
	* of the read method depend on the particular type of the input stream.
	* @throws IOException
	*/
	virtual void reset() throw ( IOException ) {
	throw IOException(
	__FILE__, __LINE__,
	"BufferedInputStream::reset - mark no yet supported." );
	}

	/**
	* Determines if this input stream supports the mark and reset methods.
	* Whether or not mark and reset are supported is an invariant property of
	* a particular input stream instance.
	* @returns true if this stream instance supports marks
	*/
	virtual bool markSupported() const{ return false; }

	private:

	/**
	* Initializes the internal structures.
	* @param size of buffer to allocate
	*/
	void init( std::size_t bufferSize );

	/**
	* Populates the buffer with as much data as possible
	* from the target input stream.
	* @returns total bytes read, or -1 if EOF.
	* @throws CMSException
	*/
	int bufferData() throw ( IOException );

	/**
	* Returns the number of bytes that are currently unused
	* in the buffer.
	*/
	std::size_t getUnusedBytes() const{
	return bufferSize - tail;
	}

	/**
	* Returns the current tail position of the buffer.
	*/
	unsigned char* getTail(){
	return buffer + tail;
	}

	/**
	* Initializes the head and tail indicies to the beginning
	* of the buffer.
	*/
	void clear(){
	head = tail = 0;
	}

	/**
	* Inidicates whether or not the buffer is empty.
	*/
	bool isEmpty() const{
	return head == tail;
	}

	/**
	* Clears the buffer if there is no data remaining.
	*/
	void normalizeBuffer(){
	if( isEmpty() ){
	clear();
	}
	}

	};

	}}

	#endif /_DECAF_IO_BUFFEREDINPUTSTREAM_H_/